Presentation is loading. Please wait.

Presentation is loading. Please wait.

LERF Operation of a High Current, Low–Energy Research Facility for Nuclear and Accelerator Research Stephen Benson Staytreat, July 17, 2015.

Similar presentations


Presentation on theme: "LERF Operation of a High Current, Low–Energy Research Facility for Nuclear and Accelerator Research Stephen Benson Staytreat, July 17, 2015."— Presentation transcript:

1 LERF Operation of a High Current, Low–Energy Research Facility for Nuclear and Accelerator Research Stephen Benson Staytreat, July 17, 2015

2 LERF LERF provides a unique resource for off-line accelerator research and applications in Nuclear and Materials research. Ongoing activites include: Darklight Beam-time request submitted Resuscitation activities ongoing Starting detailed beamline design and halo study Internal readiness review being planned Project E (EUVFEL design) Continuing design review activities under AES CRADA Waiting for DOE approval of CRADA Update on Isotopes Waiting for SBIR approval Discussing with ONP on Isotope production Other activities Diagnostic studies Positron production MEIC studies (LDRD)

3 JLAB ERL: Low Energy Research Facility (LERF)
Beam accelerated from 9 to 170 MeV and then decelerated back to ~10 MeV, to recover the energy Search for Dark Matter Fixed Target Options Accelerator Research Powerful light source IR and UV FEL THz light 3

4 LERF Capabilities The ERL in the LERF is available for:
Fixed target experiments at medium current (With new RSAD) Internal target experiments at high current Offline accelerator research and development Diagnostic development FEL studies in the IR and UV THz production, Parameter Maximum value Current (ERL) 8 mA Energy 170 MeV Charge 150 pC Frequency 75 (750) MHz Current (fixed target) 0.5 mA

5 Internal Targets - Dark Light
10 mA at 100 MeV : 1 MW beam power!! ERL + internal target makes this experiment possible

6 Physics at JLAB Requires a 350 kV Photogun
Building two 350 kV DC Load Lock Inverted Photoguns CEBAF Inverted 200 kV DC Load Lock Inverted Photogun Incorporates CsK2Sb and GaAs/GaAsP SLL Longer “R30” insulator Spherical electrode Thin NEG sheet moves ground further away Maximum Field strength ~ 10 MV/m

7 Dark Light Schedule Summer 2015 Resuscitate ERL
Fall 2015 Recommission with beam, measure solenoid Late Fall 2015 Install magnets and re-arrange quads Winter Commission with solenoid on Early Summer 2016 Run with internal target Late summer 2016 Run low current through DLC Möller target Summer 2017 Statistics run Parameter Value Current (ERL) 8 mA (10 µA for Möller run) Energy 100 MeV Charge 120 (12) pC Frequency 75 (750) MHz Energy spread <0.1% rms

8 Diagnostic Studies The LERF provides a very flexible test-bed for testing out diagnostics that might be used on CEBAF or other machines. Examples include: High Dynamic Range viewer systems to see very low current halo Electro-optic sampling system can measure sub-picosecond bunches with no phase ambiguity New THz interferometers can measure very short bunches over a wide range of beam parameters. New scanning slits can be used to map out the phase space at locations with high space charge forces.

9 LERF Operations Directives (LOD) Draft to Date - Safety
All work is carried using standard work management tools (ATLis, OSPs, TOSPs, LOSPs, etc.). All ISM techniques are to be utilized. Two types of experiments: PAC approved experiments that go through the usual Safety Review and scheduling (ESAD, TAC, scheduling committee, COO,etc.). Outside WFO experiments that are reviewed for safety and then scheduled by the run coordinator. Laser Safety coordinated by the Laser System Supervisor (LSS) with the Jlab Laser Safety Officer. Use LOSPs and LPSS to manage the laser use. Overall operations is subject to the FSAD and ASE for the facility. Some experiments required an RSAD. Readiness reviews might be required depending on the uniqueness of the task. PSS, Radcon, ARMs, and ODH setup is similar to CEBAF. Have Rapid Access system for most of the machine.

10 LOD to Date (Personnel)
The basic philosophy is to treat the LERF as a fifth hall. There are therefore: LERF Hall leader Experiment lead scientist LERF Operations coordinator LERF Run coordinator (2 week appt.) LERF Accelerator-Physics Experiment Liaison (APEL) LERF Work coordinator LERF Geographic Integrator LERF Operator FEL Laser Operator LERF Scientist on Shift (LSOS) System owners Most these are the same as for any other Hall. It is possible to have one person handle more than one job here. Meet at 8:30 in LERF break room

11 LOD to Date (Configuration)
Note: All this will require significant work before it is available. Remember, patience is a virtue. Hope to have a LERF-specific Hot Checkout system Will have a LERF Element Database (LED). Modifications and updates to LED same as for CED. Presently have Monticello type control interface. We hope to move to a Jtabs type interface in the long run. Use OPS-PR and ATLis for trouble accounting and work control.

12 LOD to Date (Operations)
Operations may be conducted from the MCC or from the LERF control room (crew chief’s choice). Some details: Need FEL Laser Operator in LERF to operate the FELs May have Hot Standby Operator during some periods. Can be CEBAF Operator concurrently. Need separate LERF operator during LERF operations. Cannot act as CEBAF operator concurrently. When CEBAF is not running, we still must have a crew chief. Schedule is on LERF whiteboard. All this implies increased staffing if LERF runs in parallel with CEBAF.

13 LERF Status LERF provides a unique resource for off-line accelerator research and applications in Nuclear and Materials research. Ongoing activites include: Darklight Beam-time request submitted Resuscitation activities ongoing Starting detailed beamline design and halo study Internal readiness review being planned Project E (EUVFEL design) Continuing design review activities under AES CRADA Waiting for DOE approval of CRADA Update on Isotopes Waiting for SBIR approval Discussing with ONP on Isotope production Other activities Diagnostic studies Positron production MEIC studies (LDRD)


Download ppt "LERF Operation of a High Current, Low–Energy Research Facility for Nuclear and Accelerator Research Stephen Benson Staytreat, July 17, 2015."

Similar presentations


Ads by Google